WO2015191549A1 - Electrical cable connector - Google Patents

Abstract

An electrical cable connector is provided that can be configured to be mounted to a printed circuit board. The electrical connector includes a connector housing, and a pair of electrical terminals (38,40) that are configured to be mounted to electrical cables (22,30). The electrical terminals (38,40) can be identical to each other in one example.

Description

ELECTRICAL CABLE CONNECTOR

BACKGROUND

[0001] Electrical cable connectors typically include at least one electrical connector having a dielectric or electrically insulative connector housing and at ieast one electrical terminal supported by the connector housing, The electrical terminal includes at least one mounting end configured to be mounted to a complementary electrical component, such as a printed circuit board. The electrical connector assemblies further include at Ieast one electrical cable that is configured to be mounted to the electrical contact, thereby placing the electrical cable in electrical communication with the complementary electrical component whe the electrical terminal is mounted to the electrical component. The electrical cable can be a power connector configured to transmit electrical power from a remote component to which the electrical cable is mounted, to the electrical connector, which then transmits the power to the complementary electrical component.

SUMMARY

[0002] An electrical cable connector can include an electrically insulative connector housing, a first electrical cable including a first electrical conductor, and a second electrical cable including a second electrical conductor. The cable connector can further include a first electrical terminal including a first terminal body capable of being mounted to the first electrical conductor, and a first at ieast one mounting portion that includes a plural ity of mounting

terminals that extend out from the first terminal body and out the connector housing in a first direction. The first at least one mounting portio can be configured to be mounted to a printed circuit board. The cable connector can further include a second electrical terminal including a second terminal body capable of being mounted to the second electrical conductor, and a second at least one mounting portion that extends out from the second terminal body and out the connector housing in the first direction. The second at ieast one mounting portion can be configured to be mounted to a printed circuit board. BRIEF DESCRIPTION OF THE DRAWINGS

[0003] The foregoing summary, as well as the following detailed description of example embodiments of the application, vviii be better understood when read in conjunction with the appended drawings, in which there is shown in the drawings example embodiments for the purposes of illustration, it should be understood, however, that the application is not limited to the precise arrangements and instrumentalities shown. In the drawings:

[0004] Fig. 1 A is a perspective view of an electrical cable connector constructed in accordance with one embodiment including a connector housing, first and second electrical terminals, and first and second electrical cables;

[0005] Fig. I B is another perspective view of the electrical cable connector illustrated in Fig. 1 A;

[0ΘΘ6] Fig. 2A is a perspective view of a connector housing of the electrical cable connector illustrated in Fig. 1 A;

[ΘΘ07] Fig. 2B is another perspective view of the connector housing illustrated in Fig.

[0008] Fig. 3A is a perspective view of the first electrical terminal of the electrical cable connector illustrated in F ig. I A;

|0§09] Fig. 3B is an end elevation view of the first electrical terminal illustrated in Fig.

3A;

[0010] Fig. 3C is another perspective view of the first electrical terminal illustrated in Fig. 3A;

[0011] Fig. 3 D is a perspective view of the second electrical terminal of the electrical cable connector illustrated in Fig. 1 A;

[00J 2] Fig. 3E is an end elevation view of the second electrical terminal illustrated in Fig. 3D;

[0013] Fig. 3 F is another perspective view of the second electrical terminal illustrated in Fig. 3D;

[0014] Fig. 4A is an assembly view showing attachment of the first electrical cable to the first electrical terminal of the cable connector illustrated in Fig. 1 A;

[0015] Fig. 4B is an assembly view showing attachment of the second electrical cable to the second electrical terminal of the cable connector illustrated in Fig. 1A; [0016] Fig. 4C is a side elevation view showing the first electrical cable attached to the first electrical terminal, and the second electrical cable attached to the second electrical terminal;

[0017] Fsg. 4D is a front end elevation view of the electrical cable connector il lustrated in Fig. 1A;

|0018f Fig- 4E is a rear end elevation view of the electrical cable connector illustrated in Fig. 1 A:

{0019] Fig. 4F is an enlarged perspective view of the first electrical cable attached to the first electrical terminal, and the second electrical cable attached to the second electrical terminal;

[0020] Fig. 5 is an assembly view showing insertion of the first electrical terminal and the first electrical cable into the connector housing, and insertion of the second electrical terminal and the second electrical cable into the connector housing;

[0021] Fig. 6A is a front elevation view of a second electrical connector in accordance with one embodiment:

[0022] Fig. 6B is a side elevation view of the second electrical connector i llustrated in Fig. 6A;

[0023] Fig. 6C is a top plan view of the second electrical connector illustrated in Fig.

6A;

[0024] Fig. 7 A is a perspective view of an electrical cable connector constructed in accordance with another embodiment including a connector housing, first and second electrical terminals, and first and second electrical cables;

f 0025] Fig. 7B is another perspective view of the electrical cable connector illustrated in Fig. 7A;

[0026] Fig. 8A is a perspective view of a connector housing of the electrical cable connector illustrated in Fig. 7A;

[0027] Fig. 8B is another perspecti ve v iew of the connector housing illustrated in Fig.

8A;

[0028 J Fig. 9A is a perspective view of the first electrical terminal of the electrical cable connector illustrated in Fig. 7A;

[0029] Fig. 9B is an end elevation view of the first electrical terminal illustrated in Fig.

9A;

[0030] Fig. 9C is another perspective view of the first electrical terminal illustrated in Fig. 9A; [0031] Fig. 9D is a perspective view of the second electrical terminal of the electrical cable connector illustrated in Fig, 7A;

[0032] Fig. 9E is an end elevation view of the second electrical terminal illustrated in Fig. 9D;

[©033] Fig. 9F is another perspective view of the second electrical terminal illustrated in Fig. 9D;

10034 [ Fig. 1 OA shows perspective views associated with coating electrical conductors of the electrical cables with a tinning and a solder dip;

[0035] Fig. 10B is perspective view showing the first electrical cable attached to the first electrical terminal of the cable connector illustrated in Fig. 7 A;

[0036] Fig. IOC is a perspective view showing the second electrical cable attached to the second electrical terminal of the cable connector illustrated in Fig. 7A;

[0037] Fig. 1 1 A is a sectional side elevation view of the cable connector illustrated in Fig. 7A;

[0038] Fig. 1 1 B is another sectional side elevation view of the cable connector illustrated in Fig. 7A;

[0039] Fig. 1 1 C is a side elevation view of the cable connector illustrated in Fig. 7A, showing the connector hosing as transparent for the purposes of visibility inside the connector housing;

[0040] Fig. 1 1 D is a front end elevation view of the electrical cable connector illustrated in Fig. 7A:

[0041] Fig. 1 1 E is a rear end elevation view of the electrical cable connector illustrated in Fig. 7A:

[Θ042] Fig. 1 1 F is a perspective view of the electrical cable connector illustrated in Fig. 7A, showing the connector housing as transparent for the purposes of visibility inside the connector housing:

[0043] Fig. 1 1 G is a perspective view of first and second terminal assemblies of the cable connector illustrated in Fig. 7Λ;

[0044] Fig, 12A is an assembly view of the cable connector illustrated in Fig. 7A, showing insertion of the first electrical terminal and the first electrical cable into the connector housing, and insertion of the second electrical terminal and the second electrical cable into the connector housing;

[0045] Fig. 12B is a further assembly view of the cable connector illustrated in Fig. 7A, showing attachment of an end wall to the rear end of the connector housing; [0046] Fig, 12C is a perspective view of the cable connector illustrated in Fig. 7A;

[0047] Fig. 13A is a perspective view of an electrical cable connector constructed in accordance with another embodiment including a connector housing, first and second electrical terminals, and first and second electrical cables;

[0048] Fig. 13B is another perspective view of the electrical cable connector illustrated in Fig. S 3 A, showing the connector housing as transparent for the purposes of visibility into the connector housing;

[0049] Fig. 13C is a side elevation view of the electrical cable connector illustrated in Fig. 13 A, showing the connector housing as transparent for the purposes of visibility into the connector housing;

[0050] Fig. 13D is another side elevation view of the electrical cable connector illustrated in Fig. 13 A;

[0051 ] Fig. 14A is a perspective view of a connector housing of the electrical cable connector illustrated in Fig. 13A;

[0052] Fig. 14B is another perspective view of the connector housing il lustrated in Fig.

14A;

[0053] Fig, 14C is another perspective view of the connector housing illustrated in Fig.

14A;

[0054] Fig. 35A is a perspective view of the first electrical terminal of the electrical cable connector illustrated in Fig. 13A;

[0055] Fig. 15B is another perspective view of the first electrical terminal illustrated in Fig. 1 5A;

[0056] Fig. 15C is an end elevation view of the first electrical terminal illustrated in Fig. 1 A;

[0057] Fig. 15D is a perspective view of the second electrical terminal of the electrical cable connector illustrated in Fig. I SA;

[0058] Fig, 15E is another perspective view of the second electrical terminal illustrated in Fig. 15D;

[0059] Fig. 15F is an end elevation view of the second electrical terminal illustrated in Fig, 15D;

[0060] Fig. 16A is an assembly view of the cable connector illustrated in Fig, 13A, showing insertion of the first and second electrical terminals into the connector housing,

[0061] Fig. 16B is a rear end elevation view of the cable connector illustrated in Fig. [§062] Fig, 17A is a perspective view of first and second terminal assemblies of the cable connector illustrated in Fig. 13 A; and

[0063] Fig. 17B is a front end elevation view of the cable connector illustrated in Fig,

13 A.

DETAILED DESCRIPTION

[0064] Referring to Figs. 1A-5, an electrical cable connector 20 can include a first electrical cable 22 that defines a first end 22a and a second end opposite the first end. The first electrical cable 22 can include a first electrical conductor 26 and a first electrical insulator 28 that surrounds at least a portion of the electrical conductor 26. The cable connector 20 can further include a second electrical cable 30 that defines a first end 30a and a second end opposite the first end. The second electrical cable 30 can include a second electrical conductor 32 and a second electrical insulator 34 that surrounds at least a portion of the second electrical conductor 32. The second electrical insulator 134 can be separate and free from the first electrical insulator 128. n certain embodiments, it is envisioned that one or both of the first and second electrical cables 22 and 30 can include a respective electrical conductor without an electrical insulator that surrounds the electrical conductor, for instance, when the electrical cables 22 and 30 are configured as ground conductors. The second electrical conductors 26 and 32 at the respective second ends of the first and second electrical cables 22 and 30, respectively, can be placed in electrical communication with a complementary electrical component, which can be a power source or a device configured to receive electrical power. In this regard, it should be appreciated that the first and second electrical cables 22 and 30 can be configured as electrical power cables. Alternatively, one of the first and second electrical cables 22 and 30 can be configured as a power cable, and the other of the first and second electrical cables 22 and 30 can be configured as a ground. For instance, the first electrical cable 22 can be configured as a power cable, and the second electrical cable 30 can be configured as a ground. The first and second electrical conductors 26 and 32 can include a plurality of stranded electrically conductive fibers of wire can be braided, twisted, or otherwise intertwined as desired.

[0065 j The electrical cable connector 20 can further include a dielectric or electrically insulative connector housing 36, and first and second electrically conductive terminals 38 and 40 configured to be supported by the connector housing 36, The connector housing 36 can define a first end 36a, and a second end 36b opposite the first end 36a and spaced from the first end 36a along a longitudinal direction L, The first end 36a can be referred to as a front end, and the second end 36b can be referred to as a rear end. Thus, a forward direction can be defined along the longitudinal direction L from the second end 36b toward the first end 36a. A rearward direction can be defined along the longitudinal direction L from the first end 36a toward the second end 36b. The connector housing 36 can further define a top 36c and a bottom 36d opposite the top 36c and spaced from the top 36c along a transverse direction T that is substantially perpendicular to the longitudinal direction L. Thus, a downward direction can be defined along the transverse direction T from the top 36c toward the bottom 36d. An upward direction cars be defined along the transverse direction T from the bottom 36d toward the top

36c. The connector housing 36 can further define opposed sides 36e that are spaced from each other along a lateral direction A that is substantially perpendicular to each of the longitudinal direction L and the transverse direction T, The first and second electrical cables 22 and 30 are configured to be physically and electrically connected to the first and second electrical terminals

38 and 40, respectively, such that when the first and second electrical terminals 38 and 40 are supported by the connector housing 36, each of the first and second electrical cables 22 and 30 can extend out the first end 36a. Thus, a first terminal assembly can include the first electrical terminal 38 and the first electrical cable 22 attached to the first electrical terminal 38. Similarly, a second terminal assembly can include the second electrical terminal 40 and the second electrical cable 30 attached to the second electrical terminal 40.

[0066] The first electrical terminal 38 can include a first terminal body 42 and a first at least one mounting portion 44 that extends out from the first terminal body 42 and out the connector housing 36 in a first direction. For instance, the first direction can be a downward direction that extends along the transverse direction T. The first terminal body 42 can define a first surface 42a and a second surface 42b opposite the first surface 42a, and spaced from the first surface 42a in the first direction. Thus, the first surface 42a is spaced from the second surface

42b in a second direction opposite the first direction. The second direction can thus be an upward direction that extends along the transverse direction T. The first terminal body 42 can include first and second opposed wa!ls 46 that are spaced from each other in the lateral direction

A. The first terminal body 42 can further include a bridge member 50 connected between the first and second walls 46. The bridge member 50 can define the first surface 42a and the second surface 42b. For instance, the bridge member 50 can be a top wall connected between the top ends of the first and second walls 46. The first at least one mounting portion 44 can extend out of the connector housing 36 through the bottom 36d. The first at least one mounting portion 44 can include a plurality of first mounting terminals 52 that project down from the first terminal body 42. For instance, the mounting terminals 52 can project down from one or both of the first and second walls 46. The first mounting terminals 52 can be configured as press-fit tails, surface mounts, ball grid arrays, j-shaped leads, or any suitable alternatively constructed terminal configured to be placed in electrical communication with an underlying substrate, such as a printed circuit board. The first electrical terminal 38 can be stamped or otherwise formed as a single piece from a strip of suitable electrically conductive material as desired, such as a copper alloy. The first electrical terminal 38, for instance at the first surface 42a, can be plated with a lead- free tin over nickel,

[0067] The first and second electrical terminals 38 and 40 can be identical to each other. Accordingly, the second electrical terminal 40 can include a second terminal body 54 and a second at least one mounting portion 56 that extends out from the second terminal body 54 and out the connector housing 36 in the first direction. The second terminal body 54 can define a first surface 54a and a second surface 54b opposite the first surface 54a, and spaced from the first surface 54a in the first direction. Thus, the first surface 54a is spaced from the second surface

54b in the second direction. The second terminal body 54 can include first and second opposed walls 58 that are spaced from each other in the lateral direction A. The second terminal body 54 can further include a bridge member 62 connected between the first and second walls 58. The bridge member 62 can define the first surface 54a and the second surface 54b. For instance, the bridge member 62 can be a top wall connected between the top ends of the first and second walls

58. The bridge members 50 and 62 can be aligned with each other along the longitudinal direction L when they are supported in the connection housing such that the mounting portions

44 and 56 are coplanar with each other. The second at least one mounting portion 56 can extend out of the connector housing 36 through the bottom 36d. The second at least one mounting portion 56 can include a plurality of second mounting terminals 64 that project down from the second terminal body 54. For instance, the second mounting terminals can project down from one or both of the first and second walls 58. The second mounting terminals 64 can be configured as press-fit tails, surface mounts, ball grid arrays, j-shaped Ieads, or any suitable alternatively constructed terminal configured to be placed in electrical communication with an underlying substrate, such as a printed circuit board. Thus, the cable connector 20 can be referred to as a board mountable cable connector whose mounting portions 44 and 56 are configured to be mounted to an underlying substrate such as a printed circuit board. The second mounting terminals 64 can be stamped or otherwise formed as a single piece from a strip of suitable electrically conductive material as desired. The second electrical terminal 40 can be stamped or otherwise formed as a single piece from a strip of suitable electrically conductive material as desired, such as a copper alloy. The second electrical terminal 40, for instance at the first surface 42a, can be plated with a lead-free tin over nickel. [0068] The first surface 42a of the first electrical terminal 38 can face the top 36c of the connector housing 36, and the second surface 42b of the first electrical terminal 38 can face the bottom. Similarly, the first surface 54a of the second electrical conductor 32 can face the top 36c of the connector housing 36, and the second surface 54b can face the bottom 54b. The first surface 42a can be spaced from the top 36c a first distance, and the second surface 42b can be spaced from the bottom 36d a second distance that is greater than the first distance. Similarly, the first surface 54a can be spaced from the top 36c a first distance, and the second surface 54b can be spaced from the bottom 36d a second distance that is greater than the first distance. Thus, the first surface 42a can be spaced from the top 36c a first distance, and the second surface 54b can be spaced from the bottom 36d a second distance that is greater than the first distance.

[0069] The first electrical cable 22, and in particular the first end of the first electrical conductor 26, can be mounted to the first surface 42a of the first electrical terminal 38. Thus, the first electrical terminal 38, and in particular the first terminal body 42, is capable of being mounted to the first electrical conductor 26. The second electrical cable 30, and in particular the first end of the second electrical conductor 32, can be mounted to the second surface 54b of the second electrical terminal 40. Thus, the second electrical terminal 40, and in particular the second terminal body 54, is capable of being mounted to the second electrical conductor 32. For instance, the first electrical conductor 26 can be uitrasonicaily welded to the first electrical terminal 38. Alternatively, the first electrical conductor 26 can be soldered to the first electrical terminal 38. Similarly, second electrical conductor 32 can be uitrasonicaily welded to the second electrical terminal 40. Alternatively, the second electrical conductor 32 can be soldered to the second electrical terminal 40.

[0070] In one example, the fibers of wire of the first electrical conductor 26 at the first end 22a of the first electrical cable 22 can be exposed from the insulator, and shaped so as to define at least one keyed surface 25, and fused to each other while shaped so as to define a solidified shape 27 having the at least one keyed surface 25, prior to electrically connecting the first end 22a to the first surface 42a of the first electrical terminal 38. Thus, the keyed surface 25 can correspond in shape to the first surface 42a. For instance, both the keyed surface 25 and the first surface can be substantially flat surfaces. In one example, the fibers of wire of the first electrical conductor 26 can be uitrasonicaily bonded, welded, or soldered to each other at the first end 22a so as to fuse the fibers of wire to each other. Similarly, the fibers of wire of the second electrical conductor 32 at the first end 30a of the second electrical cable 30 can be exposed from the second electrical insulator 34, and shaped so as to define at least one keyed surface 37, and fused to each other while shaped so as to define a solidified shape 39 having the at least one keyed surface 37, prior to electrically connecting the first end 30a to the second surface 54b of the second electrical terminal 40, Thus, the keyed surface 37 can correspond in shape to the second surface 54b. For instance, both the keyed surface 37 and the second surface 54b can be substantially flat surfaces. In one example, the fibers of wire of the first electrical conductor 26 cars be uitrasonically bonded, welded, or soldered to each other at the first end 30a so as to fuse the fibers of wire to each other. n one example, the fibers of the first and second electrical conductors 26 and 32, respectively, can be uitrasonically bonded, welded, or soldered to each other at the respective first ends so as to fuse the fibers of wire to each other and to define the solidified shape having the at least one keyed surface.

[0071 ] The first and second electrical terminals 38 and 40, can be arranged in the connector housing 36 such that the second electrical terminal 40 is disposed between the first end 36a and the first electrical terminal 38, and the first electrical terminal 38 is disposed between the second electrical terminal 40 and the second end 36b. Alternatively, the first and second electrical terminals 38 and 40, can be arranged in the connector housing 36 such that the first electrical terminal 38 is disposed between the first end 36a and the second electrical terminal 40, and the second electrical terminal 40 is disposed between the first electrical terminal 38 and the second end 36b. The first and second ends 36a and 36b of the connector housing 36 can be spaced from each other along a second direction, such as the longitudinal direction L.

Respective majorities or entireties of the first and second electrical terminals 38 and 40 can be aligned with each other along the second direction when the first and second electrical terminals 38 and 40 are disposed in the connector housing 36. Further, when the first and second electrical terminals 38 and 40 are disposed in the connector housing 36 and the first and second electrical cables 22 and 30 are attached to the first and second terminals, respectively, the first electrical cable 22 can be spaced from the second electrical cable 30 in the first direction at a location between the first and second ends 36a and 36b. For instance, when the first and second electrical terminals 38 and 40 are disposed in the connector housing 36 and the first and second electrical cables 22 and 30 are attached to the first and second terminals, respectively, the first electrical cable 22 can be aligned with the second electrical cable 30 in the first direction at a location between the first and second ends 36a and 36b. Otherwise stated, the second electrical cable 30 can be aligned with the first electrical cable 22 in the second direction. Thus, the first electrical cable 22 can be an upper electrical cable, and the second electrical cable 30 can be a lower electrical cable. Of course, it should be appreciated that the first electrical cable 22 can be the lower electrical cable, and the second electrical cable 30 can be the upper electrical cable. [0072] The first and second cables 22 and 30 can exit the connector housing 36 at respective first and second openings 66 and 68 in one of the first and second ends 36a and 36b, such as the first end 36a, The first opening 66 can extend through the first end 36a along a first central axis, the second opening 68 can extend through the first end 36a along a second central axis. The first central axis can be spaced from the second central axis along the transverse direction. For instance, the first central axis can be aligned with the second central axis in the first direction. Each of the first and second openings 66 and 68 can be disposed between the top 36c and bottom 36d, and can further be disposed between the first and second sides 36e.

[0073] The connector housing 36 can define a first channel 70 that extends through the connector housing 36 from the first end 36a to the second end 36b. For instance, the first channel 70 can define the first opening 66. Alternatively, the first channel 70 can define the second opening 68. The connector housing 36 can define a second channel 72 that extends into the connector housing 36 from the first end 36a toward the second end 36b. The second channel 72 can terminate between the first end 36a and the second end 36b. For instance, the second channel 72 can define the second opening 68 and can extend through the connector housing 36 from the second opening 68 toward the second end 36b. Alternatively, the second channel 72 can define the first opening 66. The connector housing 36 can further define a third channel 74 that is aligned with at least a portion of the second channel 72 along the longitudinal direction L. The third channel 74 can extend from the second end 36b toward the first end 36a. The third channel 74 can be open to the first channel 70. For instance, the third channel can be open to the first channel 70 along the transverse direction T. The connector housing 36 can include a divider wall 76 that is disposed between the second and third channels 72 and 74,

[0074] A portion of the first terminal assembly that includes the first electrical terminal 38 and the first electrical cable 22 can be disposed in the third channel 74, and the second terminal assembly tha includes the second electrical terminal 40 and the second electrical cable 30 can be disposed in the second channel 72. A portion of the first terminal assembly can further be disposed in the first channel 70. For instance, the first electrical terminal 38 can be disposed in the third channel 74, and the first electrical cable 22 can extend from the first surface 42a of the first terminal body 42, through the first channel 70, and out the first opening 66. The second electrical terminal 40 can be disposed in the second channel 72, and the second electrical cable 30 can extend from the second surface 54b of the second terminal body 54, through the second channel 72, and out the second opening 68.

[0075] The second channel 72, and thus the connector housing 36, can define a first at least one slot 78 that extends through the bottom 36d, Accordingly, a portion of the second electrical terminal 40 can extend through the first at least one slot 78 in the first direction, such that the second at least one mounting portion 56 extends through the first at least one slot 78 and out from the bottom 36d in the first direction. For instance, the first at least one slot 78 can include a pair of slots 78 that are spaced from each other in the lateral direction. The waits 58 can he aligned with respective ones of the first slots 78. Accordingly, the walls 58, the mounting portions 56, or both, can extend through the s!ots 78 and out the connector housing.

[0076] The third channel 74, and thus the connector housing 36, can define a second at least one slot 80 that extends through the bottom 36d. Accordingly, a portion of the first terminal body 42 can extend through the second at least one slot 80 in the first direction. For instance, the first at least one mounting portion 44 can extend through the second at least one slot 80 and out from the bottom 36d in the first direction. The first and second at least one mounting portions 44 can be coplanar with each other. For instance, the second at least, one slot 80 can include a pair of slots 80 that are spaced from each other in the lateral direction A. The walls 58 can be aligned with respective ones of the slots 80. Accordingly, the walls, the mounting portions 44, or both, can extend through the slots 80 and out the connector housing 36.

[0077] The electrical cable connector 20 can further include an end wall 82 that is configured to cover at least the first channel 70 at the second end 36b of the connector housing 36. For instance, the end wail 82 is configured to be in a first position whereby the end wall 82 covers the first and third channels 70 and 74 at the second end 36b and a second position whereby the end wail 82 is out of alignment with the first and third channels 70 and 74 at the second end 36b, Accordingly, when end wall 82 is out of alignment with the first and third channels 70 and 74 at the second end 36b, the first electrical terminal 38 and the first electrical cable 22 can be inserted into the connector housing 36 through the second end 36b along a direction toward the first end 36a, as is described in more detail below. When the end wall 82 is in the first position, the end wall 82 interferes with the first electrical cable 22 and the first electrical terminal 38 so as to render the first terminal assembly touch proof, and to further prevent the first terminal assembly from traveling out the second end 36b of the connector housing 36. in one example, the end wall 82 can be removable from the connector housing 36, such that the end wall is in the first position when the end wall 82 is attached to the connector housing 36, and in the second position when the end wall 82 is removed from the connector housing. Alternatively, the end wail can be attached to the housing 36, and movable with respect to the connector housing 36 between the first and second positions. For instance, the end wall 82 can be hingedly attached to the housing 36, siidably attached to the housing 36, or otherwise attached to the housing. |0Θ78] in accordance with the illustrated example, the end wail 82 and the connector housing 36 have complementary engagement members that are received in each other when the end wall 82 is attached to second end 36b of the connector housing 36. For instance, the connector housing 36 can include an attachment wall 84 at the second end 36b. The second slots 80 can extend through the attachment wall 84 such that the first electrical terminal 38 and the first electrical cable 22 can be inserted into the connector housing 36 through the second end 36b along a direction toward the first end 36a. Each of the first and second terminals 38 and 40 can include retention barbs 86 that flare laterally outward from one or both the walls so as to press-fit or otherwise interfere with the connector housing 36 when the terminals are inserted in the connector housing 6, thereby resisting or preventing back-out of the respective electrical terminals along a direction opposite the insertion direction of the electrical terminals into the connector housing 36. The direction of insertion, and the direction opposite the direction of insertion, can both be oriented along the longitudinal direction L. When the electrical connector 20 is mounted to the underlying substrate, the longitudinal direction L can be oriented parallel to the substrate. Thus, the insertion direction can be parallel to a mounting interface of the connector housing 91 , as described in more detail below.

[0079] Referring now also to Figs. 6A-6C, a kit can include at least one second electrical connector 90, The second electrical connector 90 can be constructed as described in United States Patent No. 7,331 ,800, the disclosure of which is hereby incorporated by reference as if set forth in its entirety herein. The second electrical connector 90 can include an electrically insulative second connector housing 91 , a plurality of electrical signal contacts 92 and electrical ground contacts 93 supported by the connector housing 93 , arranged in respective leadframe assemblies so as to define differentia! signal pairs along each of the respective leadframe assemblies. Ones of the ground contacts can be disposed between respective ones of the differentia! signal pairs. The signal contacts 92 and ground contacts 93 define mounting portions 94 as described above with the mounting portions of the electrical cable connector 20.

[0080] The kit can further include at least one electrical cable connector 20 as described above, such that the connector housing 36 and the connector housing 9! of the second electrical connector are identically dimensioned along the lateral direction A. That is, the connector housing 36 and the second electrical connector 90 can have an identical width. The identical width can be between approximately 8mm and approximately 13mm, such as between approximately 1 1 mm and 12mm, such as approximately 1 1.85mm.

[0081] Further, the mounting portions 44 and 56 of the cable connector 20 can combine to define a first footprint. The mounting portions 94 of the signal contacts 92 and ground contacts 93 of the second electrical connector 90 can define a second footprint that is equal to the first footprint. Thus, ones of the mounting portions of the first footprint can be spaced from each other along the lateral direction A a first distance, and ones of the mounting portions of the first footprint can be spaced from each other along a the longitudinal direction L a second distance. Sim ilarly, ones of the mounting portions of the second footprint can he spaced from each other along the lateral direction A the first distance, and ones of the mounting portions of the second footprint can be spaced from each other along a the longitudinal direction L the second distance. Thus, the first and second footprints can be equally dimensioned in the lateral direction A and the longitudinal direction L. Accordingly, the second electrical connector and the cable connector 20 can be mounted to the same printed circuit board having the same dimensions and footprint on the printed circuit board. For instance, the mounting portions of the first footprint are positioned and configured to be inserted into a respective plurality of vias of the printed circuit board, and the mounting portions of the second footprint is positioned and configured to be inserted into the respective plurality of vias of the printed circuit board.

10082 ] The housing 36 of the cable connector 20 can define a first length in the longitudinal direction L, and the housing 1 can have a second length from the fron end to the opposed rear end that is greater than the first length. The first end of the housing 91 can define a mating interface that is configured to mate with a complementary electrical device so as to place the signal contacts 92 and ground contacts 93 in electrical communication with a complementary electrical device, such as a complementary electrical connector. The bottom of the housing 91 can define a mounting interface configured to face the printed circuit board when the housing 91 is mounted to the printed circuit board. The housing 36 can define a first height from the bottom 36d to the top 36c, and the housing 91 can define a second height from the bottom to the top that opposite the bottom, the second height equal to the first height. The first and second heights can be between approximately 10mm and 20mm at the respective mating interfaces, such as between approximately S 3mm and 16mm, for instance approximately 14.7mm. The first and second heights can be between approximately 15mm and 25mm at respective locations opposite the mating interfaces along the longitudinal direction L, such as between approximately 17mm and 21 mm, for instance approximately 19. i mm.

[0083] Referring again to Figs. 1A-5, a method can be provided for installing the first and second terminal assemblies, including the first and second electrical terminals 38 and 40 and the first and second electrical cables 22 and 30, into the electrical cable connector housing 36.

The method can include the step of mounting the first electrical conductor 26 of the first electrical cable 22 to the first surface 42a of the first terminal body 42 as described above. The method can further include the step of mounting the second electrical conductor 32 of the second electrical cable 30 to the second surface 54b of the second terminal body 54 as described above. The first surface 42a can face a first direction, and the second surface 54b can faces a second direction opposite the first surface when the first and second mounting portions 44 and 56 extend in the same direction, such that the first and second terminals 38 and 40 are aligned for insertion into the connector housing 36. The method can further include the step of inserting the first electrical terminal 38 into the connector housing 36 along a respective insertion direction such that the first electrical cable 22 extends out the connector housing 36, For instance, the first electrical terminal 38 is inserted in a direction from the second end 36b toward the first end 36a. The first electrical terminal 38 can be inserted into the third channel 74 as described above. The inserting step can further include the step of inserting the first electrical cable 22 in the direction from the second end 36b toward the first end 36a in the first channel 70. The method can further include the step of inserting the second electrical terminal 40 into the connector housing 36 along a respective insertion direction such that the second electrical cable 30 extends out the connector housing 36. For instance, the second electrical terminal 40 can be inserted into the second channel 72 in a direction from the first end 36a toward the second end 36b.

[0084] The first inserting step can include the step of pulling the first electrical terminal 38 into the connector housing 36. For example, the first electrical terminal 38 can be pulled along a direction in which the first electrical cable 22 extends from the first electrical terminal 38. First electrical terminal 38 can be inserted into the third channel 74 in a forward direction from the second end 36b toward the first end 36a. Thus, the first electrical cable 22 can first be inserted into the first channel 70 at the second end 36b in the forward direction such that the first electrical cable 22 extends through the first end 36a. Because the first cable 22 is mounted to the first surface 42a of the first terminal 38, the first terminal 38 is inserted into the third channel 74 as the first cable 22 is drawn through the first channel 70. The first terminal 38 can be inserted through the slot 80 that extends through the attachment wall 84 in the forward direction. For instance, the first terminal 38 can be inserted in the third channel 74 in the forward direction until the first terminal abuts the connector housing 36 at the end of the slot 80.

[0085] The second inserting step can include the step of pushing the second electrical terminal 40 into the connector housing 36 in a rearward direction opposite the forward direction.

Thus, the second inserting step can include the step of pushing the second electrical terminal 40 into the connector housing 36 in a direction from the first end 36a toward the second end 36b. in particular, the second electrical terminal 40 is inserted into the second channel 72. Because the second electrical cable 30 is mounted to the second surface 54b of the second electrical terminal 40, the second electrical terminal 40 can be inserted into the second channel 72 such that the second electrical cable 30 extends out the second channel 72 at the first end 36a, for instance out the second opening 68.

[ΘΘ86] Thus, each of the first and second electrical cables 22 and 30 can extend out from the connector housing 36 in the same direction, such as the forward direction. Further, the inserting steps can include the step of aligning the first electrical cable 22 with the second electrical cable 30 in the connector housing 36 along the transverse direction T. The method can further include the step of attaching the end wall 82 to the connector housing 36 so as to cover one of the channels. For instance, the end wall 82 can cover the first and third channels 70 and 74 at the second end 36h of the connector housing 36 in the manner described above. The inserting steps further include the step of causing the first and second at least one mounting portion of the electrical terminals 38 and 40 to extend out from the connector housing 36 in the downward direction.

[0087] Referring now to Figs. 7A- 12C, an electrical cable connector 120 constructed in accordance with another embodiment can include a first electrical cable 122 that defines a first end 122a and a second end opposite the first end. The first electrical cable 122 can include a first electrical conductor 126 and a first electrical insulator 128 that surrounds at least a portion of the first electrical conductor 126. The cable connector 320 can further include a second electrical cable 130 that defines a first end 130a and a second end opposite the first end 130a. The second electrical cable 130 can include a second electrical conductor 132 and a second electrical insulator 134 that surrounds at least a portion of the second electrical conductor 132. The second electrical insulator 134 can be separate from the first electrical insulator 128. The first and second electrical conductors 126 and 132 at the respective second ends of the first and second electrical cables 122 and 130, respectively, can be placed in electrical communication with a complementary electrical component, which can. be a power source or a device configured to receive electrical power, in this regard, it should be appreciated that the first and second electrical cables 122 and 130 can be configured as electrical power cables. Alternatively, one of the first and second electrical cables 122 and 1 0 can be configured as a power cable, and the other of the first and second electrical cables 122 and 130 can be configured as a ground. For instance, the first electrical cable 122 can be configured as a power cable, and the second electrical cable 130 can be configured as a ground. The first and second electrical conductors 126 and 132 can include a plurality of stranded electrically conductive fibers of wire can be braided, twisted, or otherwise intertwined as desired. The fibers can be ultrasonically bonded, welded, or soidered to each other at one or both of the first and second ends so as to fuse the fibers of wire to each other,

[0088] The eiectrical cable connector 120 can further include a dielectric or electrically insulative connector housing 136, and first and second electrically conductive terminals 138 and

140 configured to be supported by the connector housing 136. The connector housing S 36 can define a first end 136a, and a second end 136b opposite the first end 136a and spaced from the first end 136a along a longitudinal direction L. The first end 136a can be referred to as a front end, and the second end 136b can be referred to as a rear end. T hus, a forward direction can be defined along the longitudinal direction L from the second end 136b toward the first end 136a. A rearward direction can be defined along the longitudinal direction L from the first end 136a toward the second end 1 6b, The connector housing 136 can further define a top 136c and a bottom 136d opposite the top 136c and spaced from the top 136c along a transverse direction T that is substantially perpendicular to the longitudinal direction L. Thus, a downward direction can be defined along the transverse direction T from the top 336c toward the bottom 136d. An upward direction can be defined along the transverse direction T from the bottom 136d toward the top 136c. The connector housing 136 can further define opposed sides 136e that are spaced from each other along a lateral direction A that is substantially perpendicular to each of the longitudinal direction L and the transverse direction T. The first and second electrical cables 22 and 130 are configured to be physically and electrically connected to the first and second electrical terminals 138 and 140, respectively, such that when the first and second electrical terminals 138 and 140 are supported by the connector housing 136, each of the first and second electrical cables 122 and 130 can extend out the first end 136a.

[0089] The first electrical terminal 138 can include a first terminal body 142 and a first at least one mounting portion 144 that extends out from the first terminal body 142 and out the connector housing 136 in a first direction. For instance, the first direction can be a downward direction that extends along the transverse direction T. The first terminal body 142 can define a first receptacle 141 that can be substantially cylindrical in shape, or can define any suitable alternative shape as desired, The first receptacle 141 defines an inner surface 141a and an outer surface 141 b opposite the inner surface. When the first electrical terminal 138 is supported by the connector housing 136, the first receptacle 141 can extend along a central axis that is oriented in the longitudinal direction L. Thus, as is described in more detail below, the first receptacle

141 is sized to receive the first electrical conductor 126 at the first end 122a of the first electrical cable 122 along the longitudinal direction L. The terminal body 142 can include first and second opposed wails 146 that are spaced from each other in the lateral direction A. In one example, the walls 146 can be substantially planar along the longitudinal direction L and the transverse direction T. The first terminal body 142 can further include a bridge member 150 connected between the first and second wails 146. The bridge member 150 can define the receptacle 141 .

The first at least one mounting portion 144 can extend out of the connector housing 136 through the bottom 136d. in one example, the first electrical terminal 138 can include a first pair of mounting portions 144 that extend from respective ones of the first and second walls 146. For instance, the first at least one mounting portion 344 can include a plurality of first mounting terminals 152 that project down from the first terminal body 342. For instance, the first mounting terminals 152 can project down from one or both of the first and second walls 146.

The first mounting terminals 152 can be configured as press-fit tails, surface mounts, ball grid arrays, j -shaped leads, or any suitable alternatively constructed terminal configured to be placed in electrical communication with an underlying substrate, such as a printed circuit board. The first electrical terminal 138 can be stamped or otherwise formed as a single piece from a strip of suitable electrically conductive material as desired, such as a copper alloy. The terminal body

142 can be plated with a lead-free tin over nickel. The first at least one mounting portion 144 can be offset from the receptacle 141 a first distance along the transverse direction T. Further, the first electrical terminal 138 can define a first height along the transverse direction.

[0090] The second electrical terminal 140 can include a second terminal body 154 and a second at least one mounting portion 156 that extends out from the second terminal body 1 54 and out the connector housing 348 in the first direction. The second terminal body 154 can define a second receptacle 153 that can be substantially cylindrical in shape, or can define any suitable alternative shape as desired. The second receptacle 153 defines an inner surface 153a and an outer surface 153b opposite the inner surface. When the second electrical terminal 140 is supported by the connector housing 136, the second receptacle 153 can extend along a central axis that is oriented in the longitudinal direction L. Thus, as is described in more detail below, the second receptacle 153 is sized to receive the second electrical conductor 132 at the first end

130a of the second electrical cable 130 along the longitudinal direction L. The terminal body

154 can include first and second opposed wails 158 that are spaced from each other in the lateral direction A. In one example, a first one of the walls 158 can be substantially planar along the longitudinal direction L and the transverse direction T. A second one of the walls 158 can extend laterally outward with respect to the first one of the walls 158. For instance, the second one of the walls can be substantially planar in the longitudinal direction L and the lateral direction A. The second terminal body 154 can further include a second bridge member 162 connected between the second and second walls 158. The bridge member 162 can define the second receptacle 153. The second at least one mounting portion 156 can extend out of the connector housing 136 through the bottom 136d. n one example, the second electrical tenninal 140 can include a second pair of mounting portions 156 that extend from respective ones of the first and second vvaiis 158. For instance, the second at least one mounting portion 1 56 can include a plurality of second mounting terminals 164 that project down from the second tenn inal body 154. For instance, the second mounting terminals 164 can project down from one or both of the second and second walls 158. The second mounting terminals 164 can be configured as press-fit tails, surface mounts, bail grid arrays, j -shaped leads, or any suitable alternatively constructed terminal configured to be placed in electrical communication with an underlying substrate, such as a printed circuit board. The second electrical terminal 140 can be stamped or otherwise formed as a single piece from a strip of suitable electrically conductive material as desired, such as a copper alloy. The second electrical terminal 140 can be plated with a lead-free tin over nickel The second at least one mounting portion 156 can be offset from the receptacle 153 a second distance along the transverse direction T that is less than the first distance. Further, the second electrical terminal 140 can define a second height along the transverse direction T that is less than the first height.

[§091] The first electrical cable 322, and in particular the first end 122a of the first electrical conductor 126, can be mounted to the first electrical terminal 138. Thus, the first electrical terminal 138, and in particuiar the first terminal body 142, is capable of being mounted to the first electrical conductor 126. in particular, the first electrical conductor 126 at the first end 122a can be inserted into the first receptacle 141 so as to face the inner surface 141a of the first receptacle 141. The first electrical conductor 126 can then be attached to the first electrical terminal 138, In one embodiment, the first electrical conductor 126 can be soldered to the inner surface 14 la of the first receptacle 141. For instance, the first electrical conductor 126 can be exposed from the first electrical insulator 128, and coated with a tin. In one example, the exposed portion of the first electrical conductor 126 can be placed in a tinning dip, and coated with tin. Next, the exposed portion of the first electrical conductor 126 can be coated with a solder material. The exposed portion of the first electrical conductor 126 can then be inserted into the first receptacle 141 , and heated to cause solder reflow, which bonds the first electrical conductor 126 to the inner surface 141a of the receptacle 341. it should be appreciated, of course, that the first electrical conductor 126 can be attached to the first electrical terminal 138 in accordance with any suitable alternative embodiment as desired. For instance, the first receptacle 141 can be crimped about the exposed portion of the first electrical conductor 126. Alternatively, the first electrical conductor 126 can be ultrasonically welded or otherwise attached to the first electrical terminal 138.

[0092] Similarly, the second electrical cable 130, and in particular the second electrical conductor 132 at the second end of the second electrical cable 130, can be mounted to the second electrical terminal 140. Thus, the second electrical terminal 140, and in particular the second terminal body 154, is capable of being mounted to the second electrical conductor 132. n particular, the second electrical conductor 132 at the second end of the second electrical cable 130, can be inserted into the second receptacle 153 so as to face the inner surface 153a of the second receptacle 153. The second electrical conductor 132 can then be attached to the second electrical terminal 140. In one embodiment, the second electrical conductor 132 can be soldered to the inner surface 153a of the second receptacle 153. For instance, the second electrical conductor 132 can be exposed from the second electrical insulator 134, and coated with a tin. n one example, the exposed portion of the second electrical conductor 132 can be placed in a tinning dip, and coated with tin. Next, the exposed portion of the second electrical conductor 132 can be coated with a solder material. The exposed portion of the second electrical conductor 132 can then be inserted into the second receptacle 153, and heated to cause solder reflow, which bonds the second electrical conductor 132 to the inner surface 153a of the receptacle 153. t should be appreciated, of course, that the second electrical conductor 132 can be attached to the second electrical terminal 140 in accordance with any suitable alternative embodiment as desired. For instance, the second receptacle 153 can be crimped about the exposed portion of the second electrical conductor 132. Alternatively, the second electrical conductor 132 can be ultrasonically welded or otherwise attached to the second electrical terminal 140.

[0093] The first and second electrical terminals 138 and 140, can be arranged in the connector housing 136 such that the second electrical terminal 140 is disposed between the first end 136a and the first electrical terminal 138, and the first electrical terminal 138 is disposed between the second electrical terminal 140 and the second end 136b. Alternatively, the first and second electrical terminals 338 and 140, can be arranged in the connector housing 136 such that the first electrical terminal 138 is disposed between the first end 136a and the second electrical terminal 140, and the second electrical terminal 140 is disposed between the first electrical terminal 138 and the second end 136b. The first and second mounting portions 144 and 156 can be aligned with each other along the longitudinal direction L when the first and second electrical terminals 138 and !40 are disposed in the connector housing 136.

[§094] When the first and second electrical terminals 138 and 140 are disposed in the connector housing 136 and the first and second electrical cables 122 and 130 are attached to the first and second terminals 138 and 140, respectively, the first electrical cable 122 can be spaced from the second electrical cable 130 along a first direction, such as the transverse direction T, at a location between the first and second ends 136a and 136b, For instance, the first electrical cab!e 122 can be spaced from the bottom 1 36d a first distance, and the second electrical cable 130 can be spaced from the bottom 136d a second distance that is less than the first distance, Thus, the first electrical cable 122 can be an upper electrical cable, and the second electrical cable 130 can be a lower electrical cable. Of course, it should be appreciated that the first electrical cable 122 can be the lower electrical cable, and the second electrical cable 1 30 can be the upper electrical cable. Further, when the first and second electrical terminals 138 and 140 are disposed in the connector housing 136 and the first and second electrical cables 122 and 130 are attached to the first and second terminals 138 and 140, respectively, the first electrical cable 122 can be spaced from the second electrical cable 130 along a second direction perpendicular to the first direction between the first and second ends 36a and 36b. The second direction can be the lateral direction A.

[0095] The first and second cables 122 and 130 can exit the connector housing 136 at respective first and second openings 166 and 168 in one of the first and second ends 136a and 136b, For instance, the first and second openings 166 and 168 can be disposed at, the first end 136a. The first opening 166 can extend through the first end 136a along a first central axis, and the second opening 1 68 can extend through the first end 136a along a second central axis. The first central axis can be spaced from the second central axis in the first direction. The first central axis can further be spaced from the second central axis in the second direction. The first central axis can be aligned with the second central axis in a direction that includes both the first direction and the second direction. Each of the first and second openings 166 and 168 can be disposed between the top 136c and bottom 136d, and can further be disposed between the opposed sides 136e.

[0096] The connector housing 136 can define a first channel 170 that extends through the connector housing 136 from the first end 136a to the second end 136b. For instance, the first channel 170 can define the first opening 166. Alternatively, the first channel 170 can define the second opening 168. The connector housing 136 can define a second channel 172 that extends into the connector housing 1 36 from the first end 136a toward the second end 136b. The second channel 172 can terminate between the first end 136a and the second end 136b. For instance, the second channel 172 can define the second opening 168 and can extend through the connector housing 136 from the second opening 168 toward the second end 136b. Alternatively, the second channel 1 72 can define the first opening 166. The connector housing 136 can include a divider wall 1 76 thai defines an end of the second channel 172 at a location between the first end 136a and the second end 1 36b.

[0097] The second channel 172, and thus the connector housing 136, can define a first at least one slot 178 thai extends through the bottom 136d. Accordingly, a portion of the second electrical terminal 140 can extend through the first at least one slot 378 in the first direction, such that the second at least one mounting portion 1 56 extends through the first at least one slot 178 and out from the bottom 1 36d in the first direction. For instance, the first at least one slot 178 can include a pair of slots 1 78 that are spaced from each other in the lateral direction A. The walls 158 can be aligned with respective ones of the slots 178, Accordingly, the wails, the mounting portions 156, or both, can extend through the slots 178 and out the connector housing 136. The second electrical cable 130 can extend from the second electrical term inal 140, and in particular from the second receptacle 153, through the second channel 172, and out the second opening 168.

[0098] The connector housing 136 can define a third channel 174 that, extends from the second end 136b toward the first end 136a. The third channel 1 74 can define a second at least one slot 180 that extends through the bottom 36d. The divider wail 1 6 can be disposed between the second channel 172 and the third channel 174. The third channel 174 can be open to the first channel 170. For instance, the third channel 1 74 can be open to the first channel 170 along a direction that includes the transverse direction T and the lateral direction A. A portion of the first terminal body 142 can be disposed in the first channel 1 70. A portion of the first terminal body 142 can further be disposed in the third channel 174. Accordingly, a portion of the first terminal body 142 can extend through the second at least one slot 180 in the first direction. For instance, the first at least one mounting portion 144 can extend through the second at least one slot 1 80 and out from the bottom 1 6d in the first direction. The first and second mounting portions 144 and 156 can be coplanar with each other. For instance, the second at least one slot 1 80 can include a pair of slots 180 that are spaced from each other in the lateral direction A. The walls 146 can be aligned with respective ones of the slots 180. Accordingly, the walls 146, the mounting portions 144, or both, can extend through the slots 1 80 and out the connector housing 1 36. The first electrical cable 122 can extend from the first electrical terminal 1 38, and in particular from the first receptacle 141 , through the first channel 170, and out the first opening 166 at the first end 136a of the connector housing 1 36.

[0099] The electrical cable connector 120 can further include an end wall 1 2 that is con figured to cover at least the first channel 170 at the second end 136b of the connector housing

136. For instance, the end wall 182 is configured to be in a first position whereby the end wail 182 covers the first and third channels 170 and 174 at the second end 136b and a second position whereby the end wall 182 is out of alignment with the first and third channels 170 and 374 at the second end 136b, Accordingly, when end wail 182 is in the second position, a first terminal assembly that includes the first electrical terminal 138 and the first electrical cable 122 can be inserted into the connector housing 136 through the second end 136b along a direction toward the first end 136a, as is described in more detail below. When the end wall 182 is in the first position, the end wail 182 interferes with the first terminal assembly so as to render the first, terminal assembly touch proof, and to further prevent the first terminal assembly from travelling out the second end 136b of the connector housing 136. In one example, the end wall 182 can be removable from the connector housing 136, such that the end wall is in the first position when the end wall 182 is attached to the connector housing 136, and in the second position when the end wall 182 is removed from the connector housing. Alternatively, the end wall 182 can be attached to the housing 136, and movable with respect to the connector housing 136 between the first and second positions. For instance, the end wall 182 can be hingedly attached to the housing 136, slidably attached to the housing 136, or otherwise movably or fixedly attached to the housing 136.

[0100] In accordance with the illustrated example, the end wall 182 and the connector housing 136 have complementary engagement members that are received in each other when the end wail 182 is attached to second end 136b of the connector housing 136. For instance, the connector housing 136 can include an attachment wail 184 at the second end 136b. The attachment wall 184 can cover a portion of the first channel 170 and the third channel 174 at the second end 136b. The second slots 1 0 can extend through the attachment wall 184 such that the first terminal assembly can be inserted into the connector housing 136 through the second end

136b along a direction toward the first end 136a. Each of the first and second terminals 138 and

140 can include retention barbs 186 that flare laterally outward from one or both of the walls so as to press-fit or otherwise interfere with the connector housing 136 when the terminals are inserted in the connector housing 136, thereby resisting or preventing back- of the respective electrical terminal out the connector housing 136 in a direction opposite the insertion direction of the electrical terminal into the connector housing. The end wall 182 can define a support arm

185 that projects along the longitudinal direction from the second end 136b toward the first end

136a. The support arm 185 can be disposed between the outer surface 141 b of the retainer and the top 36c of the housing 36. For instance, the support arm 1 85 can be in abutment with the outer surface 141b, so as to provide structure support to the second electrical terminal 140 as the second electrical terminal 140 is mounted to the underlying printed circuit board. The support arm 3 85 can be arcuate or otherwise shaped as desired. For instance, the support arm 185 can be concave with respect to the bottom end 136d of the connector housing 136,

[0101] As illustrated in Fig, 6, a kit can include the at least one second electrical connector 90 as described above. The kit can further include at least one electrical cable connector 120, such that the connector housing 136 and the connector housing 91 of the second electrical connector are identically dimensioned along the lateral direction A. That is, the connector housing 1.36 and the second electrical connector 90 can have an identical width.

Further, the first and second mounting portions 144 and 1 56 can combine to define a first footprint, and the mounting portions of the signal contacts 92 and ground contacts 93 can de fine a second footprint that is equal to the first footprint. Thus, ones of the mounting portions of the first footprint can be spaced from each other along the lateral direction A a first distance, and ones of the mounting portions of the first footprint can be spaced from each other along a the longitudinal direction L a second distance. Similarly, ones of the mounting portions of the second footprint can be spaced from each other along the lateral direction A the first distance, and ones of the mounting portions of the second footprint can be spaced from each other along a the longitudinal direction L the second distance. Thus, the first and second footprints can be equally dimensioned in the lateral direction A and the longitudinal direction L. Accordingly, the second electrical connector and the cable connector 120 can be mounted to the same printed circuit board having the same dimensions and footprint on the printed circuit board. For instance, the mounting portions of the first footprint are positioned and configured to be inserted into a respective plurality of vias of the printed circuit board, and the mounting portions of the second footprint is positioned and configured to be inserted into the respective plurality of vias of the printed circuit board. The housing 136 of the cable connector 120 can define a first length in the longitudinal direction L, and the housing 91 can have a second length from the front end to the opposed rear end that is greater than the first length. The first end of the housing 91 can define a mating interface that is configured to mate with a complementary electrical device so as to place the signal contacts 92 and ground contacts 93 in electrical communication with a complementary electrical device, such as a complementary electrical connector. The bottom of the housing 91 can define a mounting interface configured to face the printed circuit board when the housing 91 is mounted to the printed circuit board. The housing 136 can define a first height from the bottom 136d to the top 136c, and the housing 91 can define a second height from the bottom to the top that opposite the bottom, the second height equal to the first height.

[0102] Referring again to Figs. 7A- 12C, a method can be provided for installing the first and second terminal assemblies, including the first and second electrical terminals 138 and 140 and the first and second electrical cables 122 and 130, into the eiectrica! cable connector housing 136. The method can include the step of mounting the first electrical conductor 126 of the first electrical cable 122 to the first electrical terminal 138 to define the first terminal assembly as described above. The method can further include the step of mounting the second electrical conductor 132 of the second electrical cable 130 to the second electrical terminal body 140 to define the second terminal assembly as described above. The method can further include the step of inserting the first electrical terminal 138 into the connector housing 136 along a respective insertion direction such that the first electrical cable 122 extends out the connector housing 136. For instance, the first electrical terminal 138 is inserted in a direction from the second end 136b toward the first end 136a. The first electrical terminal 138 can be inserted into the first and third channels 170 and 174 as described above. For instance, the first and second walls 146 can be inserted into the third channel 174, and the first receptacle 141 can be inserted into the first channel 170. The inserting step can further include the step of inserting the first electrical cable 122 in the direction from the second end 136b toward the first end 136a in the first channel 170. The method can further include the step of inserting the second electrical terminal 140 into the connector housing 136 along a respective insertion direction such that the second electrical cable 130 extends out the connector housing 136. For instance, the second electrical terminal 140 can be inserted into the second channel 172 in a direction from the first end 136a toward the second end 136b.

[0103] The first inserting step can include the step of pulling the first electrical terminal 138 into the connector housing 136. For example, the first electrical terminal 138 can be pulled along a direction in which the first electrical cable 122 extends from the first electrical terminal 138. The first electrical terminal 138 can be inserted into the first and third channels 70 and 74 in a forward direction from the second end 136b toward the first end 136a. Thus, the first electrical cable 122 can first be inserted into the first channel 170 at the second end 136b in the forward direction such that the first electrical cable 122 extends through the first end 136a.

Because the first cable 122 is mounted to the first electrical terminal 138, the first electrical terminal 138 is inserted into the first and third channels 70 and 74 as the first cable 122 is drawn through the first channel 170. The first electrical terminal 138 can be inserted through the slot 180 that extends through the attachment wail 184 in the forward direction. For instance, the first electrical terminal 138 can be inserted in the third channel 174 in the forward direction until the first terminal abuts the connector housing 136 at the end of the slot 180.

[01 §4] The second inserting step can include the step of pushing the second electrical terminal 140 into the connector housing 136 in a rearward direction opposite the forward direction. Thus, the second inserting step can include the step of pushing the second electrical terminal 140 into the connector housing 136 in a direction from the first end 136a toward the second end 136b, in particular, the second electrical terminal 140 is inserted into the second channel 172. Because the second electrical cable 130 is mounted to the second electrical terminal 140, the second electrical terminal 140 can be inserted into the second channel 172 such that the second electrical cable 130 extends out the second channel 172 at the first end 136a, for instance out the second opening 68.

[0105] Thus, each of the first and second electrical cables 122 and 130 can extend out from the connector housing 136 in the same direction, such as the forward direction. Further, the inserting steps can include the step of aligning the first electrical cable 122 with the second electrical cable 130 in the connector housing 136 along a direction that includes the transverse direction T and the lateral direction A. The method can further include the step of attaching the end wall 182 to the connector housing 136 so as to cover one of the channels. For instance, the end wall 182 can cover the first and third channels 170 and 174 at the second end 136b of the connector housing 136 in the manner described above. The inserting steps further include the step of causing the first and second at least one mounting portion of the electrical terminals 138 and 140 to extend out from the connector housing 136 in the downward direction.

[0106] Referring now to Figs. 13A- 17B, an electrical cable connector 220 constructed in accordance with another embodiment can include the first electrical cable 122 and the second electrical cable 130 as described above. The electrical cable connector 220 can further include the first and second electrical terminals 138 and 140 as described above.

[0107] The electrical cable connector 220 can further include a dielectric or electrically insulative connector housing 236. The connector housing 236 can define a first end 236a, and a second end 236b opposite the first end 236a and spaced from the first end 236a along a longitudinal direction L. The first end 236a can be referred to as a front end, and the second end

236b can be referred to as a rear end. Thus, a forward direction can be defined along the longitudinal direction L from the second end 236b toward the first end 236a. A rearward direction can be defined along the longitudinal direction L from the first end 236a toward the second end 236b. The connector housing 236 can further define a top 236c and a bottom 236d opposite the top 236c and spaced from the top 236c along a transverse direction T that is substantially perpendicular to the longitudinal direction L. Thus, a downward direction can be defined along the transverse direction T from the top 236c toward the bottom 2,36d. An upward direction can be defined along the transverse direction T from the bottom 236d toward the top

236c. The connector housing 236 can further define opposed sides 236e that are spaced from each other along a lateral direction A that is substantially perpendicular to each of the longitudinal direction L and the transverse direction T. The first and second electrical cables 222 and 230 are configured to be physically and electrically connected to the first and second electrical terminals 138 and 140, respectively, such that when the first and second electrical terminals 138 and 140 are supported by the connector housing 236, each of the first and second electrical cables 122 and 130 can extend out the first end 236a.

[Θ108] The connector housing 236 can define a first channel 270 that extends at least into the connector housing 236 from the first end 236a toward the second end 236b. The first channel 270 can further extend through the connector housing 236 from the first end 236a to the second end 236b. The first channel 270 can define a first opening 266 at the first end 236a. The connector housing 236 can define a second channel 272 that extends into the connector housing 236 from the first end 236a toward the second end 236b. Thus, each of the first and second channels 270 and 272 can extend at least into the connector housing along the longitudinal direction L. The second channel 272 can terminate between the first end 236a and the second end 236b. For instance, the second channel 272 can define a second opening 268 disposed at the first end 236a. Alternatively, the second channel 272 can define the first opening 266, and the first channel 270 can define the second opening 268. The first and second openings 266 and 268 can be aligned from each other along a direction that includes the transverse direction T and the lateral direction A. Thus, the first and second openings 266 and 268 can be spaced from each other in both the lateral direction A and the transverse direction T. The connector housing 236 can include a divider wall 276 that defines an end of the second channel 272 at a location between the first end 236a and the second end 236b.

[0109] The connector housing 236 can define a third channel 274 that extends into the housing 236 along a direction that is perpendicular to the longitudinal direction L, For instance, the third channel 274 can extend into the connector housing 236 along the transverse direction T. n one example, the third channel 274 can extend through the bottom 236d in the upward direction toward the top 236c. Thus, the third channel 274 can define a third opening 269 in the bottom 236d of the housing 236. The third channel 274 can be open to the first channel 270.

The third channel 274 can define a width in the lateral direction A that is no less than the distance between the first and second wails 1 58 along the lateral direction A. The third channel

274 can have a length in the longitudinal direction L that is no less than the length of the second electrical terminal 140. The connector housing 236 can define a shelf 237 that at least partially defines the third channel 274. The connector housing 236 can further include at least one projection 243 that can be configured as a heat stake, as is described in more detail below. That is, the projection 243 is configured to deform when heated. The projection 243 can extend from the shelf 237 in the downward direction toward the bottom 236d of the connector housing 236.

The second channel 272, and thus the connector housing 236, can define a first at ieast one slot 278 that extends through the bottom 236d. Accordingly, a portion of the second electrical terminal 140 can extend through the first at least one slot 278 in the first direction, such that the second at ieast one mounting portion i 56 extends through the first at least one slot 278 and out from the bottom 236d in the first direction. For instance, the first at least one slot 278 can include a pair of slots 278 that are spaced from each other in the lateral direction A. The wads 358 can be aligned with respective ones of the slots 278. Accordingly, the walls, the mounting portions 156, or both, can extend through the slots 278 and out the connector housing 236, The second electrical cable 230 can extend from the second electrical terminal 140, and in particular from the second receptacle 153, through the second channel 272, and out the second opening 268.

[0111] The third channel 274 can define a second at least one slot 280 that extends through the bottom 236d. The divider wall 276 can be disposed between the second channel 272 and the third channel 274. The third channel 274 can be open to the first channel 270. For instance, a first portion of the third channel 274 can be open to the first channel 270 along the transverse direction T. A portion of the first terminal body 142 can be disposed in the first channel 270. For instance, the receptacle 141 can be disposed in the first channel 270. Another portion of the first terminal body 142 can further be disposed in the third channel 274. For instance, at feast a portion of at ieast one of the walls 246 can be disposed in the third channel 274. Accordingly, a portion of the first electrical terminal body 142 can extend through the second at least one slot 280 in the first direction. For instance, the first at least one mounting portion 144 can extend through the second at least one slot 280 and out from the bottom 236d in the first direction. The first and second mounting portions 144 and 156 can be coplanar with each other. For instance, the first at least one slot 280 can include a pair of slots 280 that are spaced from each other in the lateral direction A. The walls 246 can be aligned with respective ones of the slots 280. Accordingly, the walls 246, the mounting portions 144, or both, can extend through the slots 280 and out the connector housing 236. The first electrical cable 222 can extend from the first electrical terminal 138, and in particular from the first receptacle 141 , through the first channel 270, and out the first opening 266 at the first end 236a of the connector housing 236.

[0112] The first electrical cable 122, and in particular the first end 122a of the first electrical conductor 126, can be mounted to the first electrical terminal 138. Thus, the first electrical terminal 138, and in particular the first terminal body 142, is capable of being mounted to the first electrical conductor 126. In particular, the first electrical conductor 126 at the first end 122a can be inserted into the first receptac le 141 so as to face the inner surface 141a of the first receptacle 141 . The first electrical terminal 138 can be inserted in a respective insertion direction through the third opening 269 in the bottom 236d, and into the third channel 274 in the upward direction, along the transverse direction T until the first receptacle 141 is disposed in the first channel 270. The first and second opposed walls 146 of the first electrical terminal 138 can be are spaced from each other in the lateral direction A as described above. In one example, a first one of the walls 158 can be substantially planar along the longitudinal direction L and the transverse direction T. A second one of the walls 158 can have a first portion that extends laterally outward with respect to the first one of the wails 158. For instance, the first portion of the second one of the walls 1 58 can be substantially planar in the longitudinal direction L and the lateral direction A. The second one of the walls 158 can have a second portion that extends from the first portion. For instance, the second portion can extend down from the first portion. The second portion can thus be planar along the longitudinal direction L and the transverse direction

T. The first electrical terminal 138 can define at least one aperture 139, such as a plurality of apertures 139, that extends through one of the walls 158. For instance, the apertures 139 can extend through the second one of the walls 158. In one example, the apertures 139 can extend through the first portion of the second one of the walls 158 in the transverse direction T. When the first electrical terminal 138 is inserted into the connector housing 236, the first electrical terminal 138 can be heat staked to the connector housing 236. For instance, the apertures ! 39 can receive respective ones of the projections 243. Next, heat can be applied to the projections

243 such that the projections 243 each deform so as to define a deformed region that is positioned such that the first electrical terminal 138 is captured between the deformed regions and the shelf 237. It should be appreciated that any location of the first electrical terminal 138 can define apertures configured to receive the projections of the housing 236 so as to be heat staked to the connector housing 236. Further, it should be appreciated that any of the electrical terminals 38, 40, 138, and 140, can defined apertures configured to receive projections of the connector housing so as to be heat staked to the connector housing.

[0113] After the first electrical terminal 138 has been inserted into the connector housing 236, the first electrical conductor 126 can be attached to the first electrical terminal 138.

For instance, the first electrical cable 122 can be inserted into the first opening 266 in the rearward direction from the first end 236a toward the second end 236b in the first channel 270 until the first electrical conductor 126 at the first end 122a is inserted into the first receptacle 141. Next, the first electrical conductor 126 can be soldered to the inner surface 141a of the first receptacle 14 S in the manner described above. For instance, the first electrical conductor 126 can be exposed from the first electrical insulator 128, and coated with a tin. in one example, the exposed portion of the first electrical conductor 126 can be placed in a tinning dip, and coated with tin. Next, the exposed portion of the first electrical conductor 126 can be coated with a solder material. The exposed portion of the first electrical conductor 126 can then be inserted into the first receptacle 141 , and heated to cause solder reflow, which bonds the first electrical conductor 126 to the inner surface 141a of the receptacle 141. Thus, the first electrical conductor 126 can be soldered to the inner surface 141 a of the first receptacle 141 after the first electrical terminal 138 has been inserted into the connector housing 236. Alternatively, the first electrical conductor 126 can be uitrasonicaliy welded to the first receptacle 141 after the first electrical terminal 138 has been inserted into the connector housing 236.

[0114] The second electrical cable 130, and in particular the second electrical conductor 132 at the second end of the second electrical cable 130, can be mounted to the second electrical terminal 140. Thus, the second electrical terminal 140, and in particular the second terminal body 154, is capable of being mounted to the second electrical conductor 132. In particular, the second electrical conductor 132 can be inserted into the second receptacle 153 so as to face the inner surface 153a of the second receptacle 153. The second electrical conductor 132 can then be attached to the second electrical terminal 140. In one embodiment, as described above, the second electrical conductor 132 can be soldered to the inner surface 153a of the second receptacle 153. For instance, the second electrical conductor 132 can be exposed from the second electrical insulator 134, and coated with a tin. in one example, the exposed portion of the second electrical conductor 132 can be placed in a tinning dip, and coated with tin. Next, the exposed portion of the second electrical conductor 132 can be coated with a solder material. The exposed portion of the second electrical conductor 132 can then be inserted into the second receptacle 153, and heated to cause solder reflow, which bonds the second electrical conductor 132 to the inner surface I 53a of the receptacle 153. It should be appreciated, of course, that the second electrical conductor 1 32 can be attached to the second electrical terminal 140 in accordance with any suitable alternative embodiment as desired. For instance, the second receptacle 153 can be crimped about the exposed portion of the second electrical conductor 132. Alternatively, the second electrical conductor 132 can be uitrasonicaliy welded or otherwise attached to the second electrical terminal 140. The second terminal assembly can then be inserted through the second opening 168 and into the second channel 172 such that the mounting portions of the second electrical terminal 140 extend down from the connector housing 236 in the manner described above with respect to the connector housing 136.

[0115] The first and second electrical terminals 138 and 140, can be arranged in the connector housing 236 as described above with respect to Figs. 7A-12C. For instance, the second electrical ienninal 140 can be disposed between the first end 236a and the first electrical terminal 138, and the first electrical terminal 138 can be disposed between the second electrical terminal 140 and the second end 236b. Alternatively, the first and second electrical terminals 138 and 140, can be arranged in the connector housing 236 such that the first electrical terminal 138 is disposed between the first end 236a and the second electrical terminal 140, and the second electrical terminal 140 is disposed between the first electrical terminal 138 and the second end 236b. The first and second mounting portions 144 and 156 can be aligned with each other along the longitudinal direction L when the first and second electrical terminals 138 and 140 are disposed in the connector housing 236.

[0116] When the first and second electrical terminals 138 and 140 are disposed in the connector housing 236 and the first and second electrical cables 122 and 130 are attached to the first and second terminals 138 and 140, respectively, the first electrical cable 122 can be spaced from the second electrical cable 130 along a first direction, such as the transverse direction T, at a location between the first and second ends 236a and 236b. For instance, the first electrical cable 122 can be spaced from the bottom 236d a first distance, and the second electrical cable 130 can be spaced from the bottom 236d a second distance that is less than the first distance. Thus, the first electrical cable 122 can be referred to as an upper electrical cable, and the second electrical cable 130 can be referred to as a tower electrical cable. Of course, it should be appreciated that the first electrical cable 122 can be the lower electrical cable, and the second electrical cable 130 can be the upper electrical cable. Further, when the first and second electrical terminals 138 and 140 are disposed in the connector housing 236 and the first and second electrical cables 122 and 130 are attached to the first and second terminals 138 and 140, respectively, the first electrical cable 122 can be spaced from the second electrical cable 130 along a second direction perpendicular to the first direction between the first and second ends 236a and 236b. The second direction can be the lateral direction A.

[0117] The first and second cables 122 and 130 can exit the connector housing 236 at respective first and second openings 266 and 268 in one of the first and second ends 236a and

236b, such as the first end 236a. The first opening 266 can extend through the first end 236a along a first centrai axis, and the second opening 268 can extend through the first end 236a along a second central axis. The first centrai axis can be spaced from the second central axis in the first direction, such as the transverse direction T. The first central axis can further be spaced from the second central axis in the second direction, such as the lateral direction A. The first central axis can be aligned with the second centra! axis in a direction that includes both the first direction and the second direction. Each of the first and second openings 266 and 268 can he disposed between the top 236c and bottom 236d, and can further be disposed between the first and second sides 236e.

[0118J Because the electrical cable connector 220 can be constructed such that neither the first electrical terminal nor the first electrical cable 122 is inserted into the connector housing 236 through the second end 236b, the second end 236b can define the end wall 282 that closes the first channel 270. Thus, the electrical cable connector 220 can be constructed such that the wall at the second end 236b is monolithic with the connector housing 236,

[0119] As described above with respect to Fig. 6, a kit can include at least one second electrical connector 90 of the type described in United States Patent No. 7,33 1 ,800, the disclosure of which is hereby incorporated by reference as if set forth in its entirety herein. The second electrical connector 90 can include an electrically insulative second connector housing 1, a plurality of electrical signal contacts 92 and electrical ground contacts 93 supported by the connector housing 91, arranged in respective lead frame assemblies so as to define differential signal pairs along each of the respective ieadframe assemblies. Ones of the ground contacts can be disposed between respective ones of the differential signal pairs. The signal contacts 92 and ground contacts 93 define mounting portions 94 as described above with the mounting portions of the electrical cable connector 20.

[0120] The kit can further include at least one electrical cable connector 220, such that the connector housing 236 and the connector housing 1 of the second electrical connector are identically dimensioned along the lateral direction A. That is, the connector housing 236 and the second electrical connector 90 can have an identical width. Further, the mounting portions 144 and 156 can combine to define a first footprint, and the mounting portions of the signal contacts 92 and ground contacts 93 can define a second footprint that is equal to the first footprint. Thus, ones of the mounting portions of the first footprint can be spaced from each other along the lateral direction A a first distance, and ones of the mounting portions of the first footprint can be spaced from each other along a the longitudinal direction L a second distance. Similarly, ones of die mounting portions of the second footprint can be spaced from each other along the lateral direction A the first distance, and ones of the mounting portions of the second footprint can be spaced from each other along a the longitudinal direction L the second distance. Thus, the first and second footprints can be equally dimensioned in the lateral direction A and the longitudinal direction L. Accordingly, the second electrical connector and the cable connector 20 can be mounted to the same printed circuit board having the same dimensions and footprint on the printed circuit board. For instance, the mounting portions of the first footprint are positioned and configured to be inserted into a respective plurality of vias of the printed circuit board, and the mounting portions of the second footprint is positioned and configured to be inserted into the respective plurality of vias of the printed circuit board, The housing 36 of the cable connector 20 can define a first length in the longitudinal direction L, and the housing 91 can have a second length from the front end to the opposed rear end along the longitudinal direction that is greater than the first length. The first end of the housing 91 can define a mating interface that is configured to mate with a complementary electrical device so as to place the signal contacts 92 and ground contacts 93 in electrical communication with a complementary electrical device, such as a complementary electrical connector. The housing 36 can define a first height from the bottom 36d to the top 36c, and the housing 91 can define a second height from the bottom to the top that opposite the bottom, the second heigh t equal to the first height. The bottom of the housing 91 can define a mounting interface configured to face the printed circuit board when the housing 91 is mounted to the printed circuit board.

[0121] Referring again to Figs. 13A- 17B, a method can be provided for installing the first and second terminal assemblies, including the first and second eiectrical terminals 138 and 140 and the first and second electrical cables 122 and 130, into the electrical cable connector housing 236. The method can include the step of inserting the first electrical terminal 138 through the third opening until a portion of the first electrical terminal 138 is disposed in the first channel 170, a second portion of the first electrical terminal 138 is disposed in the third channel 274, and the mounting portion 144 extends out the connector housing 236. n particular, the first receptacle 141 travels through the third opening 269, through the third channel 274, and into the first channel 270. The walls 146 travel through the third opening 269 and into the third channel 274. The first electrical terminal 138 can be inserted into the connector housing 236 until the apertures 139 receive respective ones of the projections 243. Next, heat can be applied to the projections 243 such that the projections 243 each deform so as to define a deformed region that is positioned such that the first electrical terminal 138 is captured between the deformed regions and the shelf 237. The first electrical cable 122 can be inserted into the first opening 266 in the rearward direction until the first electrical conductor 126 is inserted into the first receptacle 141. The first electrical conductor 126 can then be soldered, welded, or othenvise attached to the first electrical terminal 138 in the manner described above. [0122] The method can further include the step of mounting the second electrical conductor 132 of the second electrical cable 130 to the second electrical terminal body 140 to define the second terminal assembly as described above. The method can further include the step of inserting the second electrical terminal 140 into the connector housing 236 such that the second electrical cable 130 extends out the connector housing 236. For instance, the second electrical terminal 140 can be inserted through the second opening 268 and into the second channel 272 in the rearward direction from the first end 236a toward the second end 236b such thai the second mounting portion 156 extends out the bottom 236d of the connector housing 236. It should be appreciated that the step of inserting the second electrical terminal 140 can be performed before or after the first electrical terminal 138 is inserted into the housing 236.

Further, it should be appreciated that the step of inserting the second electrical terminal 140 can be performed before or after the first electrical cable 122 is attached to the first electrical terminal 138.

[0123] The first inserting step can include the step of pushing the first electrical terminal 138 into the connector housing 236. For example, the first electrical terminal 138 can be pushed along a direction perpendicular to a direction in which the first electrical cable 122 extends from the first electrical terminal 138. The first electrical terminal 1 8 can be inserted into the third and first channels 274 and 270 in an upward direction from the bottom 236d toward the top 236c. The second inserting step can include the step of pushing the second electrical terminal 140 into the connector housing 236 in a rearward direction opposite the forward direction. Thus, the second inserting step can include the step of pushing the second electrical terminal 140 into the connector housing 236 in a direction from the first end 236a toward the second end 236b, In particular, the second electrical terminal 140 is inserted into the second channel 272. Because the second electrical cable 130 is mounted to the second electrical terminal 140, the second electrical terminal 140 can be inserted into the second channel 272 such that the second electrical cable 130 extends out the second channel 272 at the first end 236a, for instance out the second opening 268.

[0124] Thus, each of the first and second electrical cables 122 and 130 can extend out from the connector housing 236 in the same direction, such as the forward direction. Further, the method can include the step of aligning the first electrical cable 122 with the second electrical cable 130 in the connector housing 236 along a direction that includes the transverse direction T and the lateral direction A. The inserting steps further include the step of causing the first and second at least one mounting portion of the electrical terminals 138 and 140 to extend out from the connector housing 236 in the downward direction. [0125] In summary, the above disclosure includes two stacked cables that are each respectively attached to respective identical electrical terminals, with a first one of the electrical terminals being rotated 180 degrees with respect to the second terminal and both terminals being attached to a common substrate, Identical can mean equal heights, equal widths, equal depths (all within manufacturing tolerance), or any combinations of these dimensions. One of the electrical terminals can be positioned completely behind and adjacent to a second electrical terminal in an insertion direction that is parallel to the substrate. The one of the electrical terminals can be positioned on a common line with respect to the second electrical terminal, wherein the common line is oriented along the insertion direction. The second terminal can be electrically isolated from the first electrical terminal. Respective cables may be positioned in an over/under configuration with respect to one another and to a common housing that carries the first and second electrical terminals, with one cable attached to a top surface of the first electrical terminal and a second cable positioned on a bottom surface of a second electrical terminal.

Alternatively, the one cable can be attached to the first terminal at a first location on the first terminal and the second cable can be attached to the second terminal at a second location that is not common with the first location, i.e. the cables are not attached at the same spots or surfaces on the respective first and second electrical terminals. Attachment can mean by soldering, ultrasonic welding, or insulation displacement. Attachment can also exclude insulation displacement. The respective cables may be offset from each other with respect to an axis that extends in a direction normal to the insertion direction. Both electrical terminals can be carried by a common electrical housing.

[0126] The foregoing description is provided for the purpose of explanation and is not to be construed as limiting the invention. While various embodiments have been described with reference to preferred embodiments or preferred methods, it is understood that the words which have been used herein are words of description and illustration, rather than words of l imitation. Furthermore, although the embodiments have been described herein with reference to particular structure, methods, and embodiments, the invention is not intended to be limited to the particulars disclosed herein. For instance, it should be appreciated that structure and methods described in association with one embodiment are equally applicable to all other embodiments described herein unless otherwise indicated. Those skilled in the relevant art, having the benefit of the teachings of this specification, may effect numerous modifications to the invention as described herein, and changes may be made without departing from the spirit and scope of the invention, for instance as set forth by the appended claims.

Claims

What is claimed is:

1. An electrical cable connector comprising:

an electrically insulative connector housing;

a first electrical cable including a first electrical conductor;

a second electrical cable including a second electrical conductor;

a first electrical terminal including a first terminal body capable of being mounted to the first electrical conductor, and a first at least one mounting portion that includes a plurality of mounting terminals that extend out from the first terminal body and out the connector housing in a first direction, wherein the first at least one mounting portion is configured to be mounted to a printed circuit board; and

a second electrical terminal including a second terminal body capable of being mounted to the second electrical conductor, and a second at least one mounting portion that extends out from the second terminal body and out the connector housing in the first direction, wherein the second at least one mounting portion is configured to be mounted to a printed circuit board,

2. The electrical cable connector as recited in claim 1, wherein the connector housing defines a top, bottom opposite the top, a first end, a second end opposite the first end, and opposed sides, and each of the first and second electrical cables extend out the first end.

3. The electrical cable connector as recited in claim 2, wherein the first electrical conductor is mounted to the first electrical terminal, and the second electrical conductor is mounted to the second electrical terminal, such that the first and second electrical cables each extend from the first and second electrical terminals, respectively, out the first end of the connector housing, and the second electrical cable is spaced from the first electrical cable in the first direction.

4. The electrical cable connector as recited in any one of claims 2 to 3, wherein the first and second at least one mounting portions each extend out of the connector housing through the bottom.

5. The electrical cable connector as recited in any one of c laim s 2 to 4, wherein the first electrical terminal is disposed between the second end and the second electrical terminal, and the second electrical terminal is disposed between the first electrical terminal and the first end.

6. The electrical cable connector as recited in any one of claims 2 to 5, wherein the first and second ends are spaced from each other along a second direction perpendicular to the first direction, and at least respective majorities or entireties of the first and second electrical terminals are aligned with each other along the second direction.

7. The electrical cable connector as recited in any one of claims 2 to 6, wherein the first and second electrical cables exit the connector housing at respective first and second openings in the first end.

8. The electrical cable connector as recited in claim 7, wherein each of the first and second openings is disposed between the top and bottom, and further is disposed between the first and second sides.

9. The electrical cable connector as recited in any one of claims 6 to 8, wherein the connector housing includes a first channel that defines the first opening and extends at least into the connector housing from the first end to the second end.

10. The electrical cable connector as recited in any one of claims 6 to 9, wherein the connector housing includes a second channel that defines the second opening and extends at least into the connector housing from second opening toward the second end.

1 1. The electrical cable connector as recited in any one of the preceding claims, wherein 1 ) the connector housing has an identical width as a second electrical connector housing of a second electrical connector, wherein the second electrical connector housing supports a plurality of electrical signal contacts and a plurality of electrical ground contacts, and 2) the mounting portions of the first and second electrical terminals combine to define first footprint, and mounting portions of the ground contacts and signal contacts combine to define a second footprint that is identical to the first footprint,

12. The electrical cable connector as recited in any one of claims 6 to 1 1 , wherein the connector housing defines a third channel that extends at least into the connector housing from the second end toward the first end.

13. The electrical cable connector as recited in claim 12, wherein the third channel is at least partially aligned with the second channel, and the electrical cable connector comprises a divider wall disposed between the second and third channels.

14. The electrical cable connector as recited in any one of claims 12 to 13, wherein the first channel is open to the third channel.

15. The electrical cable connector as recited in any one of claims 9 to 14, wherein the first channel extends through the connector housing 36 from the first end to the second end,

16. The electrical cable connector as recited in any one of claims 12 to 15, wherein at least a portion of the second terminal body is disposed in the second channel, and at least a portion of the first terminal body is disposed in the third channel.

17. The electrical cable connector as recited in any one of claims 12 to 16, wherein the second channel defines a first at least one slot that extends through the bottom, and a portion of the first electrical terminal extends through the first at least one slot in the first direction, such that the first mounting portion extends through the slot and out from the bottom in the first direction.

18. The electrical cable connector as recited in any one of claims 12 to 17, wherein the third channel defines a second at least one slot that extends through the bottom, and a portion of the second electrical terminal extends through the second at least one slot in the first direction, such that the second mounting portion extends through the second at least one slot and out from the bottom in the first direction.

19. The electrical cable as recited in claim 1 8, wherein each of the first and second at least one slots comprises a pair of slots, and each of the first and second electrical terminals comprises a pair of spaced wails that extend at least into respective ones of the first and second pairs of slots, respectively.

20. The electrical cable connector as recited in any one of claims 12 to 1 , further comprising an end wall configured to cover at least the first channel at the second end.

21. The electrical cable connector as recited in claim 20, wherein the end wail is further configured to cover the third channel.

22. The electrical cable connector as recited in any one of claims 19 to 21 , wherein the end wall is configured to move from a first position whereby the end wall covers the first and third channels at the second end, to a second position whereby the end wall is out of alignment with each of the first and third channels at the second end.

23. The electrical cable connector as recited in any one of claims 19 to 22, wherein the end wall is removable from the connector housing.

24. 7^'he electrical cable connector as recited in any one of the preceding claims, wherein the first and second electrical conductors are soldered to the first and second electrical terminals, respectively.

25. The electrical cable connector as recited in any one of the preceding claims, wherein the first electrical cable is aligned with the second electrical cable, in the first direction, at a location between the first and second ends.

26. The electrical cable connector as recited in any one of claims 12 to 25, wherein a central axis of the first opening is aligned with a central axis of the second opening in the first direction.

27. The electrical cable connector as recited in any one of the preceding claims, wherein the first terminal body defines a first surface and a second surface opposite the first surface and spaced from the first surface in the first direction, the second terminal body defines a first surface and a second surface opposite the first surface and spaced from the first surface in the first direction, the first electrical conductor is mounted to the first surface of the first electrical terminal, and the second electrical conductor is mounted to the second surface of the second electrical terminal.

28. The electrical cable connector as recited in any one of claims 12 to 27, wherein the second electrical cable extends from the second surface of the second terminal body, through the second channel, and out the second opening.

29. The electrical cable connector as recited in any one of claims 12 to 28, wherein the first electrical cable extends from the first surface of the first terminal body, through the first channel, and out the first opening.

30. The electrical cable connector as recited in any one of claims 26 to 29, wherein the first surface of the first electrical terminal faces the top, and the second surface of the second electrical terminal faces the bottom.

31. The electrical cable connector as recited in claim 30, wherein the first surface of the first electrical terminal is spaced from the top a first distance, and the second surface of the second electrical terminal is spaced from the top a second distance that is greater than the first distance.

32. The electrical cable connector as recited in any one of the preceding claims, wherein the first and second electrical ter inals are identical to each other.

33. The electrical cable connector as recited in any one of the preceding claims, wherein the first and second electrical conductors are ultrasonicaily welded to the first and second electrical terminals, respectively.

34. The electrical cable connector as recited in any one of claims 1 to 24, wherein the first electrical cable is further spaced from the second electrical cable along a lateral direction perpendicular to the first direction.

35. The electrical cable connector as recited in claim 34, wherein a centra! axis of the first opening is aligned with a central axis of the second opening in a direction that includes the first direction and the lateral direction.

36. The electrical cable connector as recited in claim 35, wherein the first electrical terminal has a first height in a transverse direction that is perpendicular to each of the first and lateral directions, and the second electrical terminal has a second height in the transverse direction less than the first height.

37. The electrical cable connector as recited in any one of claims 12 to 23 and 33 to 36, wherein a portion of the first electrical terminal is disposed in the first channel.

38. The electrical cable connector as recited in any one of claims 1-24 and 34-37, wherein the first and second electrical terminals define first and second receptacles that receive the first and second electrical conductors, respectively.

39. The electrical cable connector as recited in any one of claims 9 to 24 and 34 to 38, wherein the first electrical cable extends from the first electrical terminal, through the first channel, and out the first opening.

40. The electrical cable connector as recited in any one of claims 9 to 24 and 34 to 39, wherein the second electrical cable extends from the second electrical terminal, through the second channel, and out the second opening.

41. The electrical cable connector as recited in any one of claims 2 to 1 1 and 25 to 40, wherein the connector housing defines a third channel that extends at least into the connector housing from the bottom toward the top.

42. The electrical cable connector as recited in claim 41 , wherein the third channel is open to the first channel.

43. The electrical cable connector as recited in any one of claims 41 to 43, wherein the electrical cables are ultrasonical!y welded or soldered to the first and second terminals, respectively.

44. The electrical cable connector as recited in claim 44, wherein the first electrical cable further comprises a first electrical insulator that surrounds at least a portion of the fsrst electrical conductor, and the second electrical cable includes a second electrical insulator that surrounds at least a portion of the second electrical conductor.

45. The electrical cable connector as recited in claim 44, wherein the first electrical cable is a first electrical power cable, and the second electrical cable is a second electrical ground cable,

46. The electrical cable connector as recited in any one of claims 44 to 45, wherein the first electrical insulator is separate and free from the second electrical insulator.

47. A kit comprising at least one electrical cable connector as recited in any one of claims 1 1 and 25 to 46, and the second electrical connector.

48. An electrical cable connector comprising:

an electrically insuiative connector housing;

a first electrical cable including a first electrical conductor;

a second electrical cable including a second electrical conductor;

a first electrical terminal including a first terminal body capable of being mounted to the first electrical conductor, and a first at least one mounting portion that extends out from the first terminal body and out the connector housing in a first direction, wherein the first at least one mounting portion is configured to be mounted to a printed circuit board; and

a second electrical terminal including a second terminal body capable of being mounted to the second electrical conductor, and a second at least one mounting portion that extends out from the second terminal body and out the connector housing in the first direction, wherein the second at least one mounting portion is configured to be mounted to a printed circuit board, wherein the first terminal body defines a first surface and a second surface opposite the first surface and spaced from the first surface in the first direction, the second terminal body defines a first surface and a second surface opposite the first surface and spaced from the first surface in the first direction, the first electrical conductor is mounted to the first surface of the first electrical terminal, and the second electrical conductor is mounted to the second surface of the second electrical terminal.

49. The electrical cable connector as recited in claim 48, wherein the connector housing defines a top, bottom opposite the top, a first end, a second end opposite the first end, and opposed sides, and each of the first and second electrical cables extend out the first end,

50. The electrical cable connector as recited in claim 49, wherein the first electrical conductor is mounted to the first electrical terminal, and the second electrical conductor is mounted to the second electrical terminal, such that the first and second electrical cables each extend from the first and second electrical terminals, respectively, out the first end of the connector housing, and the second electrical cable is spaced from the first electrical cable in the first direction,

51. The electrical cable connector as recited in any one of claims 49 to 50, wherein the first and second at least one mounting portions each extend out of the connector housing through the bottom.

52. The electrical cable connector as recited in any one of claims 49 to 5 1 , wherein the first electrical terminal is disposed between the second end and the second electrical terminal, and the second eiectricai terminal is disposed between the first eiectricai terminal and the first end.

53. The electrical cable connector as recited in any one of claims 49 to 52, wherein the first and second ends are spaced from each other along a second direction perpendicular to the first direction, and at least respective majorities or entireties of the first and second electrical terminals are aligned with each other along the second direction.

54. The eiectricai cable connector as recited in any one of claims 49 to 53, wherein the first and second electrical cables exit the connector housing at respective first and second openings in the first end.

55. The eiectricai cable connector as recited in claim 54, wherein each of the first, and second openings is disposed between the top and bottom, and further is disposed between the first and second sides.

56. The electrical cable connector as recited in any one of claims 53 to 55, wherein the connector housing includes a first channel that defines the first opening and extends at least into the connector housing from the first end to the second end.

57. The electrical cable connector as recited in any one of claims 53 to 56, wherein the connector housing includes a second channel that defines the second opening and extends at least into the connector housing from second opening toward the second end.

58. The electrical cable connector as recited in any one of claims 48 to 57, wherein 1) the connector housing has an identical width as a second electrical connector housing of a second electrical connector, wherein the second electrical connector housing supports a plurality of electrical signal contacts and a plurality of electrical ground contacts, and 2) the mounting portions of the first and second electrical terminals combine to define first footprint, and mounting portions of the ground contacts and signal contacts combine to define a second footprint that is identical to the first footprint.

59. The electrical cable connector as recited in any one of claims 53 to 58, wherein the connector housing defines a third channel that extends at least into the connector housing from the second end toward the first end.

60. The electrical cable connector as recited in claim 59, wherein the third channel is at least partially aligned with the second channel, and the electrical cable connector comprises a divider wall disposed between the second and third channels.

61. The electrical cable connector as recited in any one of claims 59 to 60, wherein the first channel is open to the third channel.

62. The electrical cable connector as recited in any one of claims 56 to 61, wherein the first channel extends through the connector housing 36 from the first end to the second end.

63. The electrical cable connector as recited in any one of claims 59 to 62, wherein at least a portion of the second terminal body is disposed in the second channel, and at least a portion of the first terminal body is disposed in the third channel.

64. The electrical cable connector as recited in any one of claims 59 to 63, wherein the second channel defines a first at least one slot that extends through the bottom, and a portion of the first electrical terminal extends through the first at least one slot in the first direction, such thai the first mounting portion extends through the slot and out from the bottom in the first direction,

65. The electrical cable connector as recited in any one of claims 59 to 64, wherein the third channel defines a second at least one slot that extends through the bottom, and a portion of the second electrical terminal extends through the second at least one slot in the first direction, such that the second mounting portion extends through the second at least one slot and out from the bottom in the first direction.

66. The electrical cable as recited in claim 65, wherein each of the first and second at least one slots comprises a pair of slots, and each of the first and second electrical terminals comprises a pair of spaced walls that extend at least into respective ones of the first and second pairs of slots, respectively.

67. The electrical cable connector as recited in any one of claims 59 to 66, further comprising an end wall configured to cover at least the first channel at the second end.

68. The electrical cable connector as recited in claim 67, wherein the end wall is further configured to cover the third channel.

69. The electrical cable connector as recited in any one of claims 66 to 68, wherein the end wall is configured to move from a first position whereby the end wall covers the first and third channels at the second end, to a second position whereby the end wall is out of alignment with each of the first and third channels at the second end.

70. The electrical cable connector as recited in any one of claims 66 to 69, wherein the end wall is removable from the connector housing.

71 . The electrical cable connector as recited in any one of claims 48 to 70, wherein the first and second electrical conductors are soldered to the first and second electrical terminals, respectively.

72. The electrical cable connector as recited in any one of claims 48 to 71 , wherein the first electrical cable is aligned with the second electrical cable, in the first direction, at a location between the first and second ends.

73. The electrical cable connector as recited in any one of claims 59 to 25, wherein a central axis of the first opening is aligned with a centra! axis of the second opening in the first direction.

74. The electrical cable connector as recited in any one of claims 59 to 73, wherein the second electrical cable extends from the second surface of the second terminal body, through the second channel, and out the second opening.

75. The electricai cable connector as recited in any one of claims 59 to 74, wherein the first electrical cable extends from the first surface of the first terminal body, through the first channel, and out the first opening.

76. The electrical cable connector as recited in any one of claims 49 to 75, wherein the first surface of the first electrical terminal faces the top, and the second surface of the second electrical terminal faces the bottom.

77. The electrical cable connector as recited in claim 76, wherein the first surface of the first electrical terminal is spaced from the top a first distance, and the second surface of the second electrical terminal is spaced from the top a second distance that is greater than the first distance.

78. The electricai cable connector as recited in any one of claims 48 to 77, wherein the first and second electrical terminals are identical to each other.

79. The electrical cable connector as recited in any one claims 48 to 78, wherein the first and second electrical conductors are ultrasonically welded to the first and second electricai terminals, respectively.

80. The electrical cable connector as recited in any one of claims 48 to 71 , wherein the first electrical cable is further spaced from the second electrical cable along a lateral direction perpendicular to the first direction.

81. The electrical cable connector as recited in claim 80, wherein a central axis of the first opening is aligned with a central axis of the second opening in a direction that includes the first direction and the lateral direction.

82. The electrical cable connector as recited in claim 81 , wherein the first electrical terminal has a first height in a transverse direction that is perpendicular to each of the first and lateral directions, and the second electrical terminal has a second height in the transverse direction less than the first height,

83. The electrical cable connector as recited in any one of claims 48 to 82, wherein the first electrical cable further comprises a first electrical insulator that surrounds at least a portion of the first electrical conductor, and the second electrical cable includes a second electrical insulator that surrounds at least a portion of the second electrical conductor.

84. The electrical cable connector as recited in claim 83, wherein the first electrical cable is a first electrical power cable, and the second electrical cable is a second electrical ground cable.

85. The electrical cable connector as recited in any one of claims 44 to 45, wherein the first electrical insulator is separate and free from the second electrical insulator.

86. A method of installing first and second electrical cables in an electrical cable connector housing of the type configured to support a first electrical terminal having a first terminal body and a first at least one mounting portion that extends from the first terminal body, and a second electrical terminal having a second terminal body and a second at least one mounting portion that extends from the second terminal body in the downward direction, the method comprising the steps of;

mounting a first electrical conductor of a first electrical cable to a first surface of the first terminal body, the first surface facing a first direction;

mounting a second electrical conductor of a second electrical cable to a second surface of the second terminal body that faces a second direction opposite the first surface when the first and second mounting portions extend in the same direction;

inserting the first electrical terminal into an electrically insulative connector housing such that the first electrical cable extends out the connector housing: and

inserting the second electrical terminal into the electrically insulative connector housing such that the second electrical cable extends out the connector housing.

87. The method as recited in claim 86, wherein the mounting steps comprise ultrasonicaiiy welding the first and second electrical conductors to the first and second surfaces, respectively.

88. The method as recited in any one of claims 86 to 87, wherein the first and second inserting steps are in opposite directions.

89. The method as recited in any one of claims 86 to 88, wherein the first and second inserting steps comprise inserting the first and second terminals in the connector housing such that the first and second electrical cabies extend through respective channels of the connector housing and out the connector housing.

90. The method as recited in claim 89, further comprising the step of attaching an end wall to the connector housing so as to cover one of the channels.

91. The method as recited in claim 90, wherein the end wall covers the channel that contains the first electrical terminal.

92. The method as recited in any one of claims 86 to 91 , wherein the inserting steps further comprise causing each of the first and second electrical cables to extend out from the connector housing in the same direction.

93. The method as recited in any one of claims 86 to 92, wherein the inserting steps further comprise causing the first and second at least one mounting portion to extend out from the connector housing in a downward direction.

94. The method as recited in claim 93, wherein the inserting steps further comprise aligning the first electrical cable with the second electrical cable in the connector housing.

95. The method as recited in any one of claims 93 to 94, wherein the first surface races an upward direction opposite the downward direction, and the second surface faces the downward direction.

96. The method as recited in any one of claim 86 to 92, wherein the first inserting step comprises pulling the first electrical terminal into the connector housing, and the second inserting step comprises pushing the second electrical terminal into the connector housing.

97. The method as recited in any one of claims 86 to 96, further comprising the step of mounting the first and second electrical terminals to a printed circuit board.

98. A method of installing first and second electrical cables in an electrical cable connector housing;

inserting a first electrical terminal into the connector housing such that a first at least one mounting end of the first electrical terminal extends down from the connector housing; after the inserting step, inserting a first electrical cable into the connector housing, and mounting a first elec trical conductor of the first electrical cable to the first electrical terminal, such that the first electrical conductor extends out a front end of the connector housing;

mounting a second electrical conductor of a second electrical cable to a second electrical terminal; and

after the second mounting step, inserting the second electrical terminal into the connector housing such that 1) a second at least one mounting end of the second electrical terminal extends down from the connector housing, and 2) the second electrical cable extends out from the front end of the connector housing;

99. The method as recited in claim 98, wherein the first inserting step is along a direction that is perpendicular to a direction of the second inserting step.

100. The method as recited In any one of claims 98 to 99, wherein each of the mounting steps comprises ultrasonically welding or soldering.

101. The method as recited in any one of claims 98 to 100, wherein the inserting steps comprise inserting the respective electrical conductor into a receptacle of the respective electrical, terminal.

102. The method as recited in any one of claims 98 to 101 , wherein the second inserting step is performed after the first mounting step.

103. The method as recited in any one of claims 98 to 101, wherein the second inserting step is performed before the first mounting step.

104. The method as recited in any one of claims 98 to 103, further comprising the step of heat staking one of the first and second electrical terminals to the connector housing.

105. The method as recited in claim 104, further comprising the step of heat staking the first electrical terminal to the connector housing.